4.6 Article

Intelligent computing to solve fifth-order boundary value problem arising in induction motor models

Journal

NEURAL COMPUTING & APPLICATIONS
Volume 29, Issue 7, Pages 449-466

Publisher

SPRINGER
DOI: 10.1007/s00521-016-2547-6

Keywords

Induction motor model; Active set technique; Interior point technique; Sequential quadratic programming; Artificial neural networks

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In this study, biologically inspired intelligent computing approached based on artificial neural networks (ANN) models optimized with efficient local search methods like sequential quadratic programming (SQP), interior point technique (IPT) and active set technique (AST) is designed to solve the higher order nonlinear boundary value problems arise in studies of induction motor. The mathematical modeling of the problem is formulated in an unsupervised manner with ANNs by using transfer function based on log-sigmoid, and the learning of parameters of ANNs is carried out with SQP, IPT and ASTs. The solutions obtained by proposed methods are compared with the reference state-of-the-art numerical results. Simulation studies show that the proposed methods are useful and effective for solving higher order stiff problem with boundary conditions. The strong motivation of this research work is to find the reliable approximate solution of fifth-order differential equation problems which are validated through strong statistical analysis.

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